Index: trunk/Ohana/src/relastro/test/mana.sh
===================================================================
--- trunk/Ohana/src/relastro/test/mana.sh	(revision 39371)
+++ trunk/Ohana/src/relastro/test/mana.sh	(revision 39375)
@@ -28,4 +28,24 @@
   testnboot pm-boot
   testnboot plx-boot
+end
+
+macro teststk
+  if ($0 != 3)
+    echo "USAGE: testobj2 (Nstars) (foutliers)"
+    break
+  end
+
+  exec ../bin/fitstk.lin64 plx -Nstars $1 -foutliers $2 > test.stk.dat
+  load.stack test.stk.dat
+end
+
+macro testobj2
+  if ($0 != 3)
+    echo "USAGE: testobj2 (Nstars) (foutliers)"
+    break
+  end
+
+  exec ../bin/fitobj2.lin64 plx -Nstars $1 -foutliers $2 > test.plx.dat
+  checkstats test.plx.dat
 end
 
@@ -191,4 +211,66 @@
 end
 
+macro load.stack
+  if ($0 != 2) 
+    echo "USAGE: load.stack (file)"
+    break
+  end
+
+  data $1
+  read Npts 1 Nout 2 Nstk 3 Ro 4 Do 5 uRo 6 uDo 7 Po 8 Rx 10 Dx 11 uRx 12 uDx 3 Px 14 Tx 16 dRo 18 dDo 19 duRo 20 duDo 21 dPo 22 Nfit 23 Rstk 25 Dstk 26 dRstk 27 dDstk 28 chisq 32
+  # read Ro 1 Do 2 uRo 3 uDo 4 Po 5 Rx 7 Dx 8 uRx 9 uDx 10 Px 11 Tx 13 dRo 15 dDo 16 duRo 17 duDo 18 dPo 19 Nfit 20 chisq 24
+  # read Ro 1 Do 2 uRo 3 uDo 4 Po 5 Rx 7 Dx 8 uRx 9 uDx 10 Px 11 Tx 13 dRo 15 dDo 16 duRo 17 duDo 18 dPo 19 Nfit 20 chisq 22
+
+  foreach f uD uR P
+    set d$f = $f\o - $f\x
+  end
+  set sdR = 3600*(Ro - Rstk)*dcos(Do)
+  set sdD = 3600*(Do - Dstk)
+
+  set Rf = Rx - uRx*(Tx - $Tref)/3600.0/dcos(Dx)
+  set Df = Dx - uDx*(Tx - $Tref)/3600.0
+
+  set dRf = 3600*(Ro - Rf)*dcos(Dx)
+  set dDf = 3600*(Do - Df) 
+
+  # echo "fit scatter"
+  vstat -q dRf;  $value_dRf =  $SIGMA*1000
+  vstat -q dDf;  $value_dDf =  $SIGMA*1000
+  vstat -q duR;  $value_duR =  $SIGMA*1000
+  vstat -q duD;  $value_duD =  $SIGMA*1000
+  vstat -q dP ;  $value_dP  =  $SIGMA*1000
+
+  vstat -q sdR;  $value_sdR =  $SIGMA*1000
+  vstat -q sdD;  $value_sdD =  $SIGMA*1000
+
+  # echo "fit errors"
+  vstat -q dRo;  $value_dRo  = $MEAN*1000; $sigma_dRo  = $SIGMA*1000
+  vstat -q dDo;  $value_dDo  = $MEAN*1000; $sigma_dDo  = $SIGMA*1000
+  vstat -q duRo; $value_duRo = $MEAN*1000; $sigma_duRo = $SIGMA*1000
+  vstat -q duDo; $value_duDo = $MEAN*1000; $sigma_duDo = $SIGMA*1000
+  vstat -q dPo ; $value_dPo  = $MEAN*1000; $sigma_dPo  = $SIGMA*1000
+
+  # echo "Nfit"
+  vstat -q Nfit; $mean_Nfit = $MEAN
+
+  # echo chisq
+  vstat -q chisq; $mean_chisq = $MEAN
+
+  fprintf "%5.2f %5.2f %5.2f %5.2f %5.2f : %5.2f %5.2f %5.2f %5.2f %5.2f : %5.2f %5.2f %5.2f %5.2f %5.2f : %6.2f %5.2f" $value_dRf $value_dDf $value_duR $value_duD $value_dP $value_dRo $value_dDo $value_duRo $value_duDo $value_dPo $sigma_dRo $sigma_dDo $sigma_duRo $sigma_duDo $sigma_dPo $mean_Nfit $mean_chisq
+  
+  delete dRbin oRbin
+  for i 0 100
+    subset tmp = dRf if (Npts == $i)
+    vstat tmp -q
+    concat $SIGMA dRbin
+    concat $MEAN oRbin
+  end
+
+  create n 0 dRbin[]
+  set dRmod = 0.010 / sqrt (n)
+  lim n -0.001 0.015; clear; box; plot n dRbin
+  plot -c red -pt 7 n dRmod
+end
+
 # determine the parallax factor (time) (ra) (dec) (parfR) (parfD) are vectors, 
 macro getParFactor_vectors
